Byung-Hun Jung scite author profile

Byung-Hun Jung

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1Citation Statement Received

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Effect of Welding Speed on Mechanical Properties and Formability in Nd:YAG Laser Welds of 1000MPa Grade DP Steel

Jang¹,

Choi²,

Jung³

et al. 2009

Journal of the Korean Welding and Joining Society

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The effects of welding speed were investigated on penetration characteristics, defects and mechanical properties including formability test in Nd:YAG laser welded 1000MPa grade DP steels. A shielding gas was not used and bead-on-plate welding was performed with various welding speeds at 3.5㎾ laser power. Defects of surface and inner beads were not observed in all welding speeds. As the welding speed increased, the weld cross-section varied from the trapezoid having wider bottom bead, through X type, finally to V type in partial penetration range of welding speeds. The characteristic of hardness distribution was also investigated. The center of HAZ had maximum hardness, followed by a slight decrease of hardness as approaching to FZ. Significant softening occurred at the HAZ near BM. Regardless of the welding speed, the weld showed approximately the same hardness distribution. In the perpendicular tensile test with respect to the weld direction, all specimens were fractured at the softening zone. In the parallel tensile test to the weld direction, the first crack occurred at weld center and then propagated into the weld. Good formability over 80% was taken for all welding conditions.

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Weld quality monitoring and seam tracking in making CO2 laser welded tube for automobile bumper beam

Suh¹,

Jung²,

Lee³

2004

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Effect Analysis in Laser Metal Deposition of SKD61 by Track Pitch

Kim¹,

Jung²,

Oh³

et al. 2014

Journal of the Korea Society For Power System Engineering

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In this study, AISI M2 powder was selected primarily through various literature in order to improve the hardness and wear resistance. Among the laser metal deposition parameters, laser power was studied to improve the deposition efficiency in the laser metal deposition using a diode pumped disk laser. SKD61 hot work steel plate and AISI M2 powder were used as a substrate and powder for laser metal deposition, respectively. Fixed parameters are CTWD, focal position, travel speed, powder feed rate, etc. Experiments for the laser metal deposition were carried out by changing laser power. Through optical micrographs analysis of cross-section in LMD track, effect of the major parameters were predicted by track pitch. As the track pitch increased, so the reheated zone width, the overlap width and the minimum thickness was decreased. The hardness was decreased in the HAZ area, the hardness in the reheated HAZ area was decreased significantly and regularly in particular.

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Effect analysis in Laser Metal Deposition of SKD61 using AISI M2 power

Kim¹,

Jung²,

Oh³

et al. 2015

Journal of the Korean Society of Manufacturing Process Engineer

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In this study, AISI M2 powder was selected primarily through various pieces of literature in order to improve the hardness and wear resistance. Among the laser metal deposition parameters, laser power was studied to improve the deposition efficiency in the laser metal deposition using a diode-pumped disk laser. An SKD61 hot work steel plate and AISI M2 powder were used as a substrate and powder for laser metal deposition, respectively. Experiments for the laser metal deposition were carried out by changing the laser power and track layer. The quality of the track surface and cross-section after applying the single-layer method was better than that obtained from applying the multi-layer method. As the laser power increased, the track thickness was increased, and the surface roughness deviation was decreased. In laser power condition of 1.6kW, the maximum hardness of the deposition track was 790Hv. This value was 40% better than the hardness of the SKD61 after heat treatment.

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Byung-Hun Jung

Effect of Welding Speed on Mechanical Properties and Formability in Nd:YAG Laser Welds of 1000MPa Grade DP Steel

Weld quality monitoring and seam tracking in making CO2 laser welded tube for automobile bumper beam

Effect Analysis in Laser Metal Deposition of SKD61 by Track Pitch

Effect analysis in Laser Metal Deposition of SKD61 using AISI M2 power

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